ConversionsExtensionsCatalog.Hash Methode
Definition
Wichtig
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Überlädt
| Hash(TransformsCatalog+ConversionTransforms, HashingEstimator+ColumnOptions[]) |
Erstellen Sie einen HashingEstimatorHash, der den Datentyp InputColumnName der Eingabespalte auf eine neue Spalte hasht: Name |
| Hash(TransformsCatalog+ConversionTransforms, String, String, Int32, Int32) |
Erstellen Sie einen HashingEstimatorHash, der die Daten aus der in |
Hash(TransformsCatalog+ConversionTransforms, HashingEstimator+ColumnOptions[])
Erstellen Sie einen HashingEstimatorHash, der den Datentyp InputColumnName der Eingabespalte auf eine neue Spalte hasht: Name
public static Microsoft.ML.Transforms.HashingEstimator Hash (this Microsoft.ML.TransformsCatalog.ConversionTransforms catalog, params Microsoft.ML.Transforms.HashingEstimator.ColumnOptions[] columns);static member Hash : Microsoft.ML.TransformsCatalog.ConversionTransforms * Microsoft.ML.Transforms.HashingEstimator.ColumnOptions[] -> Microsoft.ML.Transforms.HashingEstimator<Extension()>
Public Function Hash (catalog As TransformsCatalog.ConversionTransforms, ParamArray columns As HashingEstimator.ColumnOptions()) As HashingEstimatorParameter
Der Katalog der Transformation.
- columns
- HashingEstimator.ColumnOptions[]
Erweiterte Optionen für die Schätzung, die auch die Namen der Eingabe- und Ausgabespalten enthalten. Dieser Schätzwert wird über Text, numerische, boolesche, Schlüssel- und DataViewRowId Datentypen betrieben. Der Datentyp der neuen Spalte ist ein Vektor von UInt32oder basiert UInt32 darauf, ob die Eingabespalten-Datentypen Vektoren oder Skalare sind.
Gibt zurück
Beispiele
using System;
using Microsoft.ML;
using Microsoft.ML.Data;
using Microsoft.ML.Transforms;
namespace Samples.Dynamic
{
// This example demonstrates hashing of categorical string and integer data types by using Hash transform's
// advanced options API.
public static class HashWithOptions
{
public static void Example()
{
// Create a new ML context, for ML.NET operations. It can be used for
// exception tracking and logging, as well as the source of randomness.
var mlContext = new MLContext(seed: 1);
// Get a small dataset as an IEnumerable.
var rawData = new[] {
new DataPoint() { Category = "MLB" , Age = 18 },
new DataPoint() { Category = "NFL" , Age = 14 },
new DataPoint() { Category = "NFL" , Age = 15 },
new DataPoint() { Category = "MLB" , Age = 18 },
new DataPoint() { Category = "MLS" , Age = 14 },
};
var data = mlContext.Data.LoadFromEnumerable(rawData);
// Construct the pipeline that would hash the two columns and store the
// results in new columns. The first transform hashes the string column
// and the second transform hashes the integer column.
//
// Hashing is not a reversible operation, so there is no way to retrieve
// the original value from the hashed value. Sometimes, for debugging,
// or model explainability, users will need to know what values in the
// original columns generated the values in the hashed columns, since
// the algorithms will mostly use the hashed values for further
// computations. The Hash method will preserve the mapping from the
// original values to the hashed values in the Annotations of the newly
// created column (column populated with the hashed values).
//
// Setting the maximumNumberOfInverts parameters to -1 will preserve the
// full map. If that parameter is left to the default 0 value, the
// mapping is not preserved.
var pipeline = mlContext.Transforms.Conversion.Hash(
new[]
{
new HashingEstimator.ColumnOptions(
"CategoryHashed",
"Category",
16,
useOrderedHashing: false,
maximumNumberOfInverts: -1),
new HashingEstimator.ColumnOptions(
"AgeHashed",
"Age",
8,
useOrderedHashing: false)
});
// Let's fit our pipeline, and then apply it to the same data.
var transformer = pipeline.Fit(data);
var transformedData = transformer.Transform(data);
// Convert the post transformation from the IDataView format to an
// IEnumerable <TransformedData> for easy consumption.
var convertedData = mlContext.Data.CreateEnumerable<
TransformedDataPoint>(transformedData, true);
Console.WriteLine("Category CategoryHashed\t Age\t AgeHashed");
foreach (var item in convertedData)
Console.WriteLine($"{item.Category}\t {item.CategoryHashed}\t\t " +
$"{item.Age}\t {item.AgeHashed}");
// Expected data after the transformation.
//
// Category CategoryHashed Age AgeHashed
// MLB 36206 18 127
// NFL 19015 14 62
// NFL 19015 15 43
// MLB 36206 18 127
// MLS 6013 14 62
// For the Category column, where we set the maximumNumberOfInverts
// parameter, the names of the original categories, and their
// correspondence with the generated hash values is preserved in the
// Annotations in the format of indices and values.the indices array
// will have the hashed values, and the corresponding element,
// position -wise, in the values array will contain the original value.
//
// See below for an example on how to retrieve the mapping.
var slotNames = new VBuffer<ReadOnlyMemory<char>>();
transformedData.Schema["CategoryHashed"].Annotations.GetValue(
"KeyValues", ref slotNames);
var indices = slotNames.GetIndices();
var categoryNames = slotNames.GetValues();
for (int i = 0; i < indices.Length; i++)
Console.WriteLine($"The original value of the {indices[i]} " +
$"category is {categoryNames[i]}");
// Output Data
//
// The original value of the 6012 category is MLS
// The original value of the 19014 category is NFL
// The original value of the 36205 category is MLB
}
public class DataPoint
{
public string Category { get; set; }
public uint Age { get; set; }
}
public class TransformedDataPoint : DataPoint
{
public uint CategoryHashed { get; set; }
public uint AgeHashed { get; set; }
}
}
}
Hinweise
Diese Transformation kann über mehrere Spalten ausgeführt werden.
Gilt für:
Hash(TransformsCatalog+ConversionTransforms, String, String, Int32, Int32)
Erstellen Sie einen HashingEstimatorHash, der die Daten aus der in inputColumnName einer neuen Spalte angegebenen Spalte hasht: outputColumnName
public static Microsoft.ML.Transforms.HashingEstimator Hash (this Microsoft.ML.TransformsCatalog.ConversionTransforms catalog, string outputColumnName, string inputColumnName = default, int numberOfBits = 31, int maximumNumberOfInverts = 0);static member Hash : Microsoft.ML.TransformsCatalog.ConversionTransforms * string * string * int * int -> Microsoft.ML.Transforms.HashingEstimator<Extension()>
Public Function Hash (catalog As TransformsCatalog.ConversionTransforms, outputColumnName As String, Optional inputColumnName As String = Nothing, Optional numberOfBits As Integer = 31, Optional maximumNumberOfInverts As Integer = 0) As HashingEstimatorParameter
Der Katalog der Konvertierungstransformation.
- outputColumnName
- String
Name der Spalte, die aus der Transformation von inputColumnName.
Der Datentyp dieser Spalte ist ein Schlüsselvektor oder ein Skalar von Schlüsseln, basierend darauf, ob die Datentypen der Eingabespalten Vektoren oder Skalare sind.
- inputColumnName
- String
Name der Spalte, deren Daten hashed werden.
Wenn dieser Wert als nullQuelle festgelegt ist, wird der Wert des Werts outputColumnName als Quelle verwendet.
Dieser Schätzwert wird über Vektoren oder Skalaren von Text, numerischen, booleschen, Schlüssel- oder DataViewRowId Datentypen betrieben.
- numberOfBits
- Int32
Anzahl der Bits, in die einen Hashwert aufgenommen werden soll. Muss zwischen 1 und 31 einschließlich liegen.
- maximumNumberOfInverts
- Int32
Während der Hasherstellung erstellen wir Zuordnungen zwischen ursprünglichen Werten und den erzeugten Hashwerten.
Die Textdarstellung von Originalwerten wird in den Slotnamen der Anmerkungen für die neue Spalte gespeichert. Hashing kann z. B. viele Anfangswerte einem zuordnen.
maximumNumberOfInvertsGibt die obere Grenze der Anzahl der unterschiedlichen Eingabewerte an, die einem Hash zugeordnet werden sollen, der beibehalten werden soll.
0 behält keine Eingabewerte bei. -1 behält alle Eingabewerte bei, die jedem Hash zugeordnet sind.
Gibt zurück
Beispiele
using System;
using Microsoft.ML;
using Microsoft.ML.Data;
namespace Samples.Dynamic
{
// This example demonstrates hashing of categorical string and integer data types.
public static class Hash
{
public static void Example()
{
// Create a new ML context, for ML.NET operations. It can be used for
// exception tracking and logging, as well as the source of randomness.
var mlContext = new MLContext(seed: 1);
// Get a small dataset as an IEnumerable.
var rawData = new[] {
new DataPoint() { Category = "MLB" , Age = 18 },
new DataPoint() { Category = "NFL" , Age = 14 },
new DataPoint() { Category = "NFL" , Age = 15 },
new DataPoint() { Category = "MLB" , Age = 18 },
new DataPoint() { Category = "MLS" , Age = 14 },
};
var data = mlContext.Data.LoadFromEnumerable(rawData);
// Construct the pipeline that would hash the two columns and store the
// results in new columns. The first transform hashes the string column
// and the second transform hashes the integer column.
//
// Hashing is not a reversible operation, so there is no way to retrieve
// the original value from the hashed value. Sometimes, for debugging,
// or model explainability, users will need to know what values in the
// original columns generated the values in the hashed columns, since
// the algorithms will mostly use the hashed values for further
// computations. The Hash method will preserve the mapping from the
// original values to the hashed values in the Annotations of the newly
// created column (column populated with the hashed values).
//
// Setting the maximumNumberOfInverts parameters to -1 will preserve the
// full map. If that parameter is left to the default 0 value, the
// mapping is not preserved.
var pipeline = mlContext.Transforms.Conversion.Hash("CategoryHashed",
"Category", numberOfBits: 16, maximumNumberOfInverts: -1)
.Append(mlContext.Transforms.Conversion.Hash("AgeHashed", "Age",
numberOfBits: 8));
// Let's fit our pipeline, and then apply it to the same data.
var transformer = pipeline.Fit(data);
var transformedData = transformer.Transform(data);
// Convert the post transformation from the IDataView format to an
// IEnumerable <TransformedData> for easy consumption.
var convertedData = mlContext.Data.CreateEnumerable<
TransformedDataPoint>(transformedData, true);
Console.WriteLine("Category CategoryHashed\t Age\t AgeHashed");
foreach (var item in convertedData)
Console.WriteLine($"{item.Category}\t {item.CategoryHashed}\t\t " +
$"{item.Age}\t {item.AgeHashed}");
// Expected data after the transformation.
//
// Category CategoryHashed Age AgeHashed
// MLB 36206 18 127
// NFL 19015 14 62
// NFL 19015 15 43
// MLB 36206 18 127
// MLS 6013 14 62
// For the Category column, where we set the maximumNumberOfInverts
// parameter, the names of the original categories, and their
// correspondence with the generated hash values is preserved in the
// Annotations in the format of indices and values.the indices array
// will have the hashed values, and the corresponding element,
// position -wise, in the values array will contain the original value.
//
// See below for an example on how to retrieve the mapping.
var slotNames = new VBuffer<ReadOnlyMemory<char>>();
transformedData.Schema["CategoryHashed"].Annotations.GetValue(
"KeyValues", ref slotNames);
var indices = slotNames.GetIndices();
var categoryNames = slotNames.GetValues();
for (int i = 0; i < indices.Length; i++)
Console.WriteLine($"The original value of the {indices[i]} " +
$"category is {categoryNames[i]}");
// Output Data
//
// The original value of the 6012 category is MLS
// The original value of the 19014 category is NFL
// The original value of the 36205 category is MLB
}
public class DataPoint
{
public string Category { get; set; }
public uint Age { get; set; }
}
public class TransformedDataPoint : DataPoint
{
public uint CategoryHashed { get; set; }
public uint AgeHashed { get; set; }
}
}
}